# How to create a nested loop with Ruby the “Right Way!”?

I'm in the process of learning Ruby, taking a Berkeley's MOOC, and, in some of these MOOC's homework we have an exercise that says:

Define a method sum_to_n? which takes an array of integers and an additional integer, n, as arguments and returns true if any two elements in the array of integers sum to n. An empty array should sum to zero by definition.

I already created two methods that can do the job, but I'm not comfortable with any of them because I think they are not written in the Ruby Way. I hope some of you can help me to learn which would be the right way!

The first method I made uses the `each` method for both iterations, but what I don't like about this method is that every number is summed with every other number, even with the same number, doing something like this:

``````arr[1, 2, 3, 4] => 1+1, 1+2, 1+3, 1+4, 2+1, 2+2, 2+3, 2+4, 3+1, 3+2... 4+3, 4+4
``````

As you can see, there's a lot of repeated sums, and I don't want that.

This is the code:

``````def sum_to_n?(arr, n)
arr.each {|x| arr.each {|y| return true if x + y == n && x != y}}
return true if n == 0 && arr.length == 0
return false
end
``````

With the other method I got what I wanted, just a few sums without repeating any of them or even summing the same numbers, but it looks HORRIBLE, and I'm pretty sure someone would love to kill me for doing it this way, but the method does a great job as you can see:

``````arr[1, 2, 3, 4] => 1+2, 1+3, 1+4, 2+3, 2+4, 3+4
``````

This is the code:

``````def sum_to_n?(arr, n)
for i in 0..arr.length - 1
k = i + 1
for k in k..arr.length - 1
sum = arr[i] + arr[k]
if sum == n
return true
end
end
end
return true if n == 0 && arr.length == 0
return false
end
``````

Well, I hope you guys have fun doing a better and prettier method as I did trying.

-
Normally, I would be weary of using `for` ever in Ruby, but in this case, it's acceptable as second method will have less iterations than using `each`. –  dmtri.com Oct 15 '13 at 0:33
While Ruby has `for`, we tend to ignore it because there are some side-effects, such as it leaving its intermediate variable hanging around to clutter the variable space, and it forcing us to iterate over the container using calculated indexes, rather than allowing `each` to pass in each item individually. Indexes missing the first or last element, or falling off the end, are common bugs in all languages, and `each` helps avoid that. So, while it might seem like a stylistic choice, it's really a defensive programming choice. And, welcome to Stack Overflow! –  the Tin Man Oct 15 '13 at 1:06
Appartently, Berkeley's "Massive Open Online Courses" are generating massive interest in SO =) –  Boris Stitnicky Oct 15 '13 at 1:49

I'd write it like this:

``````def sum_to_n?(arr, n)
return true if arr.empty? && n.zero?
arr.combination(2).any? {|a, b| a + b == n }
end
``````

That seems to be a pretty Rubyish solution.

-
Damn. I'm a Rubyist and even I'm surprised at how Rubyish that solution was. Well done. –  Dan Nguyen Oct 15 '13 at 3:10
This is exactly what I meant. –  DaveGomez Oct 15 '13 at 15:34
You is a smart guy, I have no doubts about that. Can you Enlighten us with a generic answer for this question? Your works because a method that does what the OP wants exists, but what if you have a generic nested loops? Or you should not have any, and if you have you are doing it wrong? –  fotanus Oct 18 '13 at 17:23

Beside @jorg-w-mittag's answer. I found another solution using 'permutation'.

http://stackoverflow.com/a/19351660/66493

``````def sum_to_n?(arr, n)
(arr.empty? && n.zero?) || arr.permutation(2).any? { |a, b| a + b == n }
end
``````

-

This one will do it in `O(n.log(n))` rather than `O(n²)`:

``````a = 1, 2, 3, 4

class Array
def sum_to? n
unless empty?
false.tap {
i, j = 0, size - 1
sorted = sort
loop do
break if i == j
a, b = sorted[i], sorted[j]
sum = a + b
return a, b if sum == n
sum < n ? i += 1 : j -= 1
end
}
end
end
end

a.sum_to? 7 #=> [3, 4]
``````
-
It's not O(n) if it uses `Array#sort`. –  Amadan Oct 15 '13 at 1:34
You'r right, including `Array#sort`, it's (probably) `O(n.log(n))`, edited the answer. –  Boris Stitnicky Oct 15 '13 at 1:35